Published Medical Physical Activity and Exercise The device provides intuitively simple usage with more complete pictures. It is malleable in real time. By University of Massachusetts, Amherst
Published Sciences Nanoemulsions Creating Method The utilization of spontaneous emulsification allows for minimal equipment, nominal training, and low energy by employing the stored chemical energy of the system. By University of Massachusetts, Amherst
Published Sciences Treatment of Biofilms Stable and potent antimicrobial polymeric nanocapsules containing an antimicrobial essential oil By University of Massachusetts, Amherst
Published Sciences Ionic Mercury Rapid and Convenient Detection: The paper strip or dipstick based sensors allow for rapid, convenient and easy detection of Hg2+. The colorimetric responses are instantaneous. By University of Massachusetts, Amherst
Published Medical Theraputic Proteins Non-toxic, stable polymeric nanocapsules By University of Massachusetts, Amherst
Published Medical Tissue Engineering Application Environment friendly fabrication process, free of unwanted additives, biocompatible design and direct cell adhesion, alignment and growth. By University of Massachusetts, Amherst
Published Engineering Sensors Does not incorporate toxic solvents By University of Massachusetts, Amherst
Published Medical T7 RNA Substantial improvements in the purity of full-length RNA products By University of Massachusetts, Amherst
Published Sciences Jamming of Nanoparticles Novel nanoparticle surfactant compositions Self-regulated, in situ generation of nanoparticle surfactant assemblies at the liquid-liquid interface By University of Massachusetts, Amherst
Published Electronics Radio Frequency Switches Low energy, non-volatile; no energy needed to maintain present state By University of Massachusetts, Amherst
Published Sciences Polymer Foams Avoid high costs and safety hazards of using toxic organic solvents Make products that can be advertised as "environmentally friendly," "free of toxic solvents" By University of Massachusetts, Amherst
Published Electronics LF - Backscatter Communication This approach has significant ramifications in terms of designing lower power and potentially lower cost backscatter sensors, while simultaneously being able to support high-speed By University of Massachusetts, Amherst
